Essential Guide: Secure IP Infrastructures For Broadcasters
October 2nd 2019 - 11:47 AM
Once logged in pick the topics and schedule that suits you, we'll update you when something new is published. You can also save articles to your personal library.
Already Registered? Login
Security is becoming increasingly important for broadcasters looking to transition to IP infrastructures. But creating improved software, firewalls and secure networks is only half the story as cybercriminals look to find new and imaginative methods of compromising data.
In this Essential Guide, we look at the new methods of attack cybercriminals are resorting to. We discover how disk drives and other intelligent peripheral devices within servers can be hacked. And we investigate the remedies high-end enterprise IT infrastructure vendors are adopting to keep our data secure.
Part 1 introduces how servers are made more secure. An in-depth description of how devices can be compromised is introduced with the remedies available to keep hackers out.
Part 2 explores Lights Out out-of-band Control and the critically important role it plays in verifying low-level server firmware, even before the CPU starts operating. The secure silicon root of trust is introduced along with the major benefits it provides for security.
Part 3 discusses secure virtualization and how encrypted VMs can help broadcasters deliver even higher levels of security. And discover how binary translation has been superseded by hardware virtualization and the benefits it brings.
This Essential Guide concludes with a sponsor’s perspective from HPE OEM Solutions and discusses their practical solutions to firmware vulnerabilities and specifically their secure silicon root of trust.
Download this essential guide today to understand advanced server security and how to implement it. This Essential Guide is for anybody designing, building, or administering their own broadcast IP infrastructure.
Part of a series supported by
You might also like...
Data Recording: Cyclic Redundancy Checks - Part 19
The CRC (cyclic redundancy check) was primarily an error detector, but it did allow some early error correction systems to be implemented. There are many different CRCs but they all work in much the same way, which is that the…
Data Recording: Modulo Counting - Part 18
The mathematics of finite fields and sequences seems to be a long way from everyday life, but it happens in the background every time we use a computer and without it, an explanation of modern error correction cannot be given.
Selecting A Content Creation Laptop
Computer marketing departments typically do not promote all company products. Rather they focus on high margin products.
Data Recording and Transmission: Error Correction II - Part 17
Here we look at one of the first practical error-correcting codes to find wide usage. Richard Hamming worked with early computers and became frustrated when errors made them crash. The rest is history.
Data Recording: Error Correction - Part 16
Error correction is fascinating not least because it involves concepts that are not much used elsewhere, along with some idiomatic terminology that needs careful definition.